Tag Archives: mentoring

Written by Alyssa DeLeoNEUR. Coffee & Conversation is a series of informal chats with women faculty on campus, hosted by Tufts GWiSE.

Our last Coffee & Conversation of the year featured Dr. Laverne Melón, a post-doctoral fellow in the Maguire lab and a TEACRS scholar. She will joining Wesleyan University as a faculty professor in neuroscience in the Fall. Laverne was born in Trinidad and moved to New York when she was 10 years old. In high school, Laverne helped establish the science club, which she insists was the most poppin’ after school extracurricular at the time, and she knew she wanted to work in research before even knowing what that was. The science club gave her and her peers the chance to support each other in the search for research experiences and ultimately lead her to volunteer in a cancer genetics lab at Columbia University. As she reflects on her first experience in science, she also acknowledges that it was also her first exposure to the sexism and racism that exists in scientific institutions. It’s difficult to turn a blind eye to these situations when all you want to do is put your head down and do the work in front of you. But, she didn’t let this taint her passion for the field and her experiences spoke to her resilience, which would be noted by several scientists later in her career.

Laverne went on to earn a BA in neuroscience at Middlebury College, a MS in Behavioral Neuroscience at Binghamton, and a PhD in Addiction Neuroscience at IUPUI after her lab at Binghamton moved. She lost a Binghamton fellowship in the move and had to teach at IUPUI, which she found frustrating as anyone does when they’re forced to do something. However, Laverne began to enjoy the process and her career path in academia became increasing clear. Laverne has been a post-doc in Jamie Maguire’s lab for the last 4 ½ years studying effects of stress on reproductive health and the role of the GABAergic system in alcohol addiction. As she moved into her post-doctoral years, she was really fueled by a research question which she presented to Jamie along with some data to score her current position. Now, she’s fielding multiple offers for faculty positions and learning to navigate this new part of her career.

As always, we chatted about how early life experiences brought our guests to their current positions, how crucial the role of mentors played in this trajectory, and the vital importance of self-advocacy. But, we kept coming back to this idea of producing good, reproducible science and how that is only possible if the field really cared about the people behind the data. It’s no secret that scientific institutions have not been the best advocates for the health of their workforce. Levecque et al. published a study in May of 2017 reporting one in two PhD students experience psychological distress and 1/3 of graduate students are at risk for a psychiatric disorder. An online survey of graduate students in a recent March 2018 study by Evans et al. reports graduate students are more than six times as likely to experience depression and anxiety compared to the general population. SIX times! It’s exceeding clear that health of scientists across fields and levels are struggling in this environment. This begins by hiring scientists that are more than a good researcher, but are inspired teachers, passionate mentors, and expert managers who are in touch the health of their lab.

As Laverne is beginning the next chapter of her career, she’s considering taking on an administrative position as a director of inclusion and diversity in addition to her faculty appointment. She intends to use her status to implement institutional changes to allow for better science through caring, supporting, and mentoring the next generation of scientists. When Laverne started to work in science, she admitted she tried to assimilate as much as possible, but it gets exhausting. It’s difficult to integrate into establishments and systems that have been hostile to the existence of women and minorities in science while trying to stick it out until you can get to a position to make changes. She’s been able to tap into her mentoring network over the years for support and instructed us to be vulnerable in our insecurities to allow these organic mentorships to grow.

If you’re interested in getting involved with GWiSE, follow us on Twitter @TuftsGWiSE, like us on Facebook, or email us at tuftsbostongwise@tufts.edu. Our next Coffee & Conversation is October 19th, 2018 at 5PM in Jaharis 913.

Guest Post by Alyssa DiLeo (Neuro). Coffee & Conversation is a series of informal chats with women faculty on campus, hosted by Tufts GWiSE.

Tufts GWiSE kicked off our monthly Coffee and Conversation series this week with Dr. Claire Moore from the Cellular, Molecular, and Developmental Biology department at Sackler. This series establishes a space to have a casual discussion with female faculty at Tufts to help build personal and professional networks and to share our experiences in science.

Claire grew up in Louisiana during the Civil Rights movement, which would end up being crucial to her future career goals. She understood the low expectations for women in the south: you graduate high school, maybe go to college, and start a family. But, she wanted more. Claire received a scholarship to attend MIT, which, at the time, had a 7:1 ratio of men to women students. She completed a combined BS and MS program graduating with degrees in chemistry and neuroscience. Claire was captivated by science and wanted to continue pursuing her career, but like many of us, took some time deciding what to do next. After a six-month stint in a wildlife biology program at Colorado State, Claire returned to Boston and worked in Phil Sharp’s lab. She demonstrated RNA splicing for the first time, work that would later earn Phil Sharp a Nobel Prize. If she had returned home, she knew she would have been flipping burgers instead of doing EM work in a prominent research lab. She stressed how important these opportunities and supportive mentors were to her career as a scientist since she too suffered from this confidence gap often seen in women. She didn’t believe she was good enough for a PhD, but that obviously turned out to be the well-known imposter syndrome talking, which she insists gets quieter with time. Claire obtained a Ph.D. in genetics in 1982 from the University of North Carolina before returning to Boston as a post-doctoral scholar in Phil Sharp’s lab. She joined the faculty at Tufts University in 1986 where her lab studies post-transcriptional processing of mRNA and its role in gene expression regulation.

Claire understood how important mentoring had been for her as an undergraduate and wanted to give back to the scientific community. Her upbringing exposed her to race and gender discrimination in the South and saw how roadblocks were built in front of people for reasons that were simply out of their control. She developed a summer training program which naturally progressed to the Post-baccalaureate Research Experiences Program (PREP) which places recent graduates interested in pursuing research careers in labs at Tufts. As if that wasn’t enough, Claire also established the training in Education and Critical Research Skills (TEACRS) program that prepares Tufts postdoctoral scholars for academic careers and supports them in pursuing teaching and mentoring activities.

Through these programs, it’s easy to see Claire’s dedication to mentoring at all career levels, especially to underrepresented minorities in science. This past year, in recognition of all she has done as a role model and mentor for women at Tufts, Claire was appointed to the Natale V. Zucker Professorship. This professorship provides her with the tools to further uplift women in science here at Tufts.

Claire told us to learn to be confident in asking for what we want, in saying no, and in asking for help. She encouraged us to find balance in our career roles and mostly pursue the parts that inspired us the most. Importantly, she also reminded us to foster relationships with each other and mentorships with women in higher positions. Claire said the first time she realized her gender could hinder her in science was when she realized her male mentors were more comfortable with male students who, in turn, received more mentorship. Well, we believe we just created our very own girls club.

When I thought about how I wanted to spend my three-week winter break, I envisioned twelve-hour Netflix binges and waking up at 11 am every day. What I didn’t expect was to be working in a lab, and attending workshops Monday through Friday, from nine to five pm. That is what my break was like, however, and I don’t regret a second of it (except the ones I spent stuck on the red line after snowstorms). I was privileged enough to have been accepted into the Tufts Winter Enrichment Program: The Pathway to PhD, an experience I will never forget. Those three weeks taught me more than I had could have imagined, and I walked out a better person and scientist.

Over the span of three weeks, I got to participate in seven different research projects, attend workshops, seminars, and interact with graduate students. The seminars were twice a week and were an opportunity for self-reflection and personal statement development. My lab-mates and I used to refer to it as group therapy jokingly. The workshops ranged from a variety of topics, but their general premise was to prepare us for graduate school and develop our professionalism. They were all incredibly helpful, and answered a lot of the questions we all had and made us all feel more prepared to apply not just to graduate school but research programs as well.

Picking worms with Lidia Park (CMDB). Courtesy – Aimee Shen

Despite how helpful the seminars and workshops were, I have to say the best part about the program was the actual research experiments. The research we did was exciting; some focused-on microbiology, some on immunology, and some on neuroscience. My favorite project was the one focused on microbiology. The research was based on the vieSAB operon in Vibrio cholerae, which aimed to determine motility and biofilm-production phenotypes of different VieA mutants in the presence of various nutrients. It was interesting to isolate and test different variables and see what parts of the operon pathway got disrupted. We as a group decided that there needed to be modifications to the experimental design to reproduce the experiment with fructose or sucrose instead of glucose.

That ability to reflect and adapt the experimental design, to think critically about future improvements, and what factors are to be excluded are just some of the valuable skills I learned in the program. I learned about the scientific process and saw examples of it being used, for example, to consider unaccounted factors that could be influencing the results, to determine the relative efficiency of a buffer used, or to think about how the pH might be too high/low, etc. If the scientific process was a book and I an editor, I’d say the point is to look for the plot holes.

Another aspect of the program I enjoyed was working with the graduate students. They were enthusiastic about working with us and teaching us. It was awesome getting to interact with them; they were eager to show us anything we were curious about and to answer any of our questions relevant to graduate school or not. One of my favorite interactions was when a graduate student was telling my lab-mates and I all the frustrating and discouraging things about being a graduate student. She followed it with the gloomiest monotone “but I’m living my dream.” On the elevator ride home, we all laughed about it.

This program was a valuable experience that I think undergraduate students could benefit from immensely. I can’t think of a better way to spend winter break than amongst imaged neurons, and secondary antibodies.

Scientific graduate programs all over the country do a wonderful job training their students to become critical thinkers able to design experiments, write fellowship grants, write peer reviewed papers, and grasp complex scientific systems. Nearly all programs, however, struggle to provide career training. Traditionally, skills such as mentoring, teaching, and leadership have been learned by observing others. This has generated many excellent scientists, mentors, teachers, and leaders, but how many more could we have developed had students received directed training? And how much better would our current scientific leaders be had they not had to reinvent the wheel for themselves?

One of the dangers of requiring students to learn through osmosis is that we tend to recapitulate what we see, even if it is not the most effective method. Partly this is because many of us do find this an effective way of gaining skills and knowledge, but there is also a mentality of initiation: we had to struggle, the next generation should experience this too. There are many answers to this paucity of career development training, however, in the form of business clubs, student and postdoc association lead career workshops, and online extracurricular courses.

Some of us at Sackler interested in a teaching career have taken advantage of a short course entitled “Scientists Teaching Science” which teaches best practices in science education, based on the latest research on teaching and learning by STEM Education Solutions (http://stem-k20.com/). This is a completely online course that runs about nine weeks with a different module every week. Depending on the week, the time commitment is about 3 hours per week for light weeks and as much as 8 hours per week on heavy weeks (depending on how assiduous a note taker you are when doing readings and how detailed you are in written assignments).

I found the intro to the course very illustrative and memorable. We were asked to read several articles on how science has traditionally been taught and how active learning has repeatedly been shown to improve learning outcomes, then Barbara Houtz started her own narrated lecture in the traditional “Sage on the Stage” style. My heart immediately sank as I envisioned the next nine weeks writing dense, jargon filled notes on topics that seemed esoteric and non-practical. This was not what I thought I was signing up for! Then she paused and asked the question, “what are you thinking?”

That’s when the real lecture began. The narrated lectures were fantastic! Available 24/7 and provided as both narration and transcript. Methods that make participants stop to think about what they are being told were used liberally to retain participant attention. This meant that we were being shown how to effectively employ all the skills we were being taught as they were being taught to us. The modules covered learning/teaching styles, generating effective assessments, Bloom’s Taxonomy of Learning, writing your teaching philosophy (a part of faculty application materials that I only learned about last year despite years of aspiration to teach), cultural awareness, active learning and inquiry based teaching, writing course objectives, teaching online, course development, and syllabus compilation. Each module was comprised of a narrated lecture, readings, and a written assignment or discussion board post requirement. Additional resources were also provided on the Virtual Learning Environment and Barbara Houtz frequently sent out class announcements about recent articles on STEM education and careers for PhDs.

I embarked on this online only course with a great deal of trepidation. Would I have the self-discipline to keep up with the material? Would I feel comfortable reaching out to the instructor with questions and comments? The answer is that with the help of an instructor devoted to keeping her participants involved and getting the most out of her course I was able to gain practical teaching skills in a remarkably short time.